MARIONET:外伸筋驱动的旋转系列弹性执行器,用于施加关节扭矩

J. Sulzer, M. Peshkin, J. Patton
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引用次数: 54

摘要

作为一种将扭矩传递到关节的新方法,介绍了一种名为MARIONET(用于远程感应净有效扭矩的力矩臂调节)的电缆驱动旋转系列弹性执行器。它的优点包括远程驱动、柔度和平衡的独立控制,以及在未来的版本中,跨越多个关节的能力。这种电缆驱动的、兼容的机制在各种人机交互中应该是非常有用的。在这里,我们提出了一个单一的关节装置,评估其位置和扭矩阶跃响应,其遵循最小的抽搐轨迹的能力,以及其创造扭矩场的能力。结果表明,该装置的性能符合计划,但有几个重要的限制。我们总结了这种机制的潜在应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MARIONET: An exotendon-driven rotary series elastic actuator for exerting joint torque
A cable-driven, rotary series elastic actuator named MARIONET (moment arm adjustment for remote induction of net effective torque) is introduced as a novel means to deliver torque to a joint. Its advantages include remote actuation, independent control of compliance and equilibrium, and in future versions, the ability to span multiple joints. This cable-driven, compliant mechanism should prove very useful in a variety of human-robot interactions. Here we present a single joint device evaluated in terms of its position and torque step responses, its ability to follow a minimum jerk trajectory, and its ability to create torque fields. Results show that this device behaves as planned with several important limitations. We conclude with potential applications of this type of mechanism.
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